RU2137717C1 - Method of removing copper ions from waste waters - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: waste water purification sorbent involved is quartz-glauconite sand with glauconite content 60 to 80% possessing high ion-exchange and adsorption capacity with respect to copper. Purification process is carried out under dynamic conditions: waste water is filtered through quartz-glauconite sand bed 0.5 m thick. EFFECT: simplified process and reduced operation expenses. 3 tbl, 3 ex

Description

 The invention relates to water treatment technology, in particular to the treatment of wastewater from copper ions by sorption, and can be used in industry, agriculture and utilities.

 The well-known "Method of wastewater treatment from heavy metals and organic substances" (A. p. 1560483, C 02 F 1/28, B.I. N 16, 1990), including the treatment of ash and sediment separation by sedimentation, in which water is sequentially treated first with ash containing CaO 30-50% to a pH of 8.75-9.25, and then with ash containing CaO 3-5%, to a pH of 6.5. The disadvantage of this method is the low cleaning efficiency due to the low sorption capacity of the ash in relation to copper and the complexity of the process.

 The closest is the "Method of wastewater treatment from copper ions" (A. p. 1495308, C 02 F 1/62, B. I. N 27, 1989), in which the water is treated with an alkaline solution and activated carbon, followed by maintaining the mixture at a temperature of 50-55 degrees for 30 minutes and separation of sediment. The disadvantage of this method is the low efficiency of wastewater treatment from copper ions and the high cost of treatment due to the high cost of the sorbent and the additional costs of technological operations for heating and settling the solution.

 The objective of the invention is the selection of the mineralogical composition of quartz-glauconite sand having an increased cation exchange capacity, and determining the optimal thickness of the sorption filter to increase the efficiency of wastewater treatment from copper ions and reduce the cost of the cleaning process.

 In the proposed method, quartz-glauconite sand with a glauconite content of 60-80%, which has higher ion-exchange and adsorption properties with respect to copper, is used as a sorbent.

 Another difference from the known method is that the cleaning process is carried out in dynamic conditions, in which the wastewater is filtered through quartz-glauconite sand with a thickness of 0.5-0.6 m, which allows faster cleaning without compromising its quality.

 In addition, the proposed method can significantly reduce the number of technological operations and, given the low cost of the sorbent, reduce the cost of cleaning.

Glauconites are layered low-temperature magnesian-ferrous hydromica. They are characterized by high specific surfaces (up to 100 ... 115 m ² / g) and ion-exchange ability. Glauconite is a widespread mineral in nature. The Commission of the Presidium of the Council of Ministers of the RSFSR on environmental protection and the rational use of natural resources by a decision of 01.25.84 recommended the development of deposits of quartz-glauconite sands as environmentally friendly materials on the territory of the RSFSR.

 The proposed method of wastewater treatment from copper ions is illustrated by the following examples.

Example 1. Wastewater of agricultural production with a mass concentration of copper of 110 μg / l and a volume of 300 ml is passed through a glass vessel with quartz-glauconite sand containing from 30 to 100% glauconite, weighing 64 g (volume 50 cm ³ ) at a filtration rate of 1 -2 m / h The degree of purification was 65-100%.

 Comparative data on the cleaning effect depending on the percentage of glauconite in quartz-glauconite sand are given in table. 1 (tab. 1-3 see at the end of the description).

 The data table. 1 show that when the content of glauconite in quartz-glauconite sand is 60% or more, the maximum degree of water purification is 99-100%. However, taking into account that in natural formations the percentage of glauconite most often does not exceed 60-80%, and the preparation of filter material with a higher content requires additional costs, this content is taken as optimal.

 Example 2. Similar to example 1, however, experiments were performed with different thickness of the filter.

 The results of experiments on the purification of wastewater from copper ions at different heights of quartz-glauconite sand layer (Table 2) show that when the layer height reaches 0.5-0.6 m, the degree of purification reaches 100%. A further increase in the height of the filter layer will be associated with an increase in the cost of the cleaning process.

 Example 3. Performed for a comparative assessment of the effectiveness of cleaning according to the known and proposed methods. Cleaning experiments are performed under conditions and at filtration rates characteristic of the known method, when the treatment of water contaminated with copper ions is carried out first with lime, then with activated carbon. In the table. 3 shows data proving the effectiveness of cleaning the use of quartz-glauconite sand as a sorbent with a glauconite content of 60-80%.

Thus, the use of the proposed method of wastewater treatment from copper ions provides the following advantages compared to the existing method:
a) the possibility of effective wastewater treatment from copper ions using cheap natural material - quartz-glauconite sand;
b) the implementation of water purification in dynamic conditions using filters to speed up, simplify and reduce the cost of the cleaning process;
c) reduction of cleaning costs due to the exclusion of additional technological operations.

Claims (1)

 A method of treating wastewater from copper ions, including sorbent treatment, characterized in that quartz-glauconite sand with a glauconite content of 60 - 80% is used as the sorbent, and the treatment is carried out by filtering wastewater through a sorbent with a layer thickness of 0.5 - 0.6 m .

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